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Analyses of GA20ox‐ and GID1‐over‐expressing aspen suggest that gibberellins play two distinct roles in wood formation

木质部 赤霉素 生物 维管形成层 拟南芥 延伸率 拟南芥 细胞生物学 表型 次生生长 形成层 植物 信号转导 突变体 生物化学 基因 材料科学 极限抗拉强度 冶金
作者
Mélanie Mauriat,Thomas Möritz
出处
期刊:Plant Journal [Wiley]
卷期号:58 (6): 989-1003 被引量:179
标识
DOI:10.1111/j.1365-313x.2009.03836.x
摘要

Summary Gibberellins (GAs) are involved in many aspects of plant development, including shoot growth, flowering and wood formation. Increased levels of bioactive GAs are known to induce xylogenesis and xylem fiber elongation in aspen. However, there is currently little information on the response pathway(s) that mediate GA effects on wood formation. Here we characterize an important element of the GA pathway in hybrid aspen: the GA receptor, GID1. Four orthologs of GID1 were identified in Populus tremula × P. tremuloides ( PttGID1.1–1.4 ). These were functional when expressed in Arabidopsis thaliana , and appear to present a degree of sub‐functionalization in hybrid aspen. PttGID1.1 and PttGID1.3 were over‐expressed in independent lines of hybrid aspen using either the 35S promoter or a xylem‐specific promoter ( LMX5 ). The 35S : PttGID1 over‐expressors shared several phenotypic traits previously described in 35S:AtGA20ox1 over‐expressors, including rapid growth, increased elongation, and increased xylogenesis. However, their xylem fibers were not elongated, unlike those of 35S:AtGA20ox1 plants. Similar differences in the xylem fiber phenotype were observed when PttGID1.1 , PttGID1.3 or AtGA20ox1 were expressed under the control of the LMX5 promoter, suggesting either that PttGID1.1 and PttGID1.3 play no role in fiber elongation or that GA homeostasis is strongly controlled when GA signaling is altered. Our data suggest that GAs are required in two distinct wood‐formation processes that have tissue‐specific signaling pathways: xylogenesis, as mediated by GA signaling in the cambium, and fiber elongation in the developing xylem.
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